Rapid activation of ARF6 after RAF inhibition augments BRAFV600E and promotes therapy resistance

The intrinsic ability of cancer cells to evade death underpins tumorigenesis, progression, metastasis and the survival of drug-tolerant persister (DTP) cells. Herein, we discovered that when activated, the small GTPase ARF6 plays a central role in tumor survival by facilitating expression of the BRAF ^V600E oncoprotein. Tumor-specific Arf6 deletion caused a significant reduction in BRAF ^V600E protein and MAPK signaling and prevented rapid tumor progression. In the context of targeted therapy, BRAF inhibition induced swift activation of ARF6, driving a positive feedback loop that restored MAPK-driven anti-apoptotic signaling, facilitated DTP cell survival during the early phases of treatment and contributed to drug-tolerant growth. In patient-derived melanoma cells with innate or clinically acquired resistance to MAPK inhibitors, ARF6 inhibition enhanced sensitivity to combined BRAF + MEK inhibition. Collectively, these findings elucidate an ARF6-dependent mechanism of BRAF oncoprotein synthesis that may be exploited in BRAF ^V600E driven cancers as a therapeutic vulnerability.